Solidity AST Types
TypeScript types and a JSON Schema for the Solidity AST.
npm install solidity-ast
import type { SourceUnit, ContractDefinition } from 'solidity-ast';
The types included in the NPM package are automatically generated from the JSON
Schema, so you will not find them in the repository. You can see what they look
like on unpkg or the documentation.
Solidity Versioning
The types are currently accurate and tested for Solidity >=0.6.6, but you can
very likely use them safely for any version since 0.6.0. For simple traversals
they will probably work well for 0.5.0 and up as well.
The versioning story will be gradually improved upon and the ultimate goal is
to be able to manipulate and traverse the AST in a uniform way that is as
agnostic to the Solidity version as possible.
Utilities
Included in the package is a set of utility functions for type-safe interactions
with nodes based on the node type.
isNodeType(nodeType, node)
A type predicate that can be used for narrowing the type of an
unknown node, or combined with higher order functions like filter
.
An array of node types can be used as well to check if the node matches one of them.
import { isNodeType } from 'solidity-ast/utils';
if (isNodeType('ContractDefinition', node)) {
}
const contractDefs = sourceUnit.nodes.filter(isNodeType('ContractDefinition'));
findAll(nodeType, node[, prune])
findAll
is a generator function that will recursively enumerate all
descendent nodes of a given node type. It does this in an efficient way by
visiting only the nodes that are necessary for the searched node type.
import { findAll } from 'solidity-ast/utils';
for (const functionDef of findAll('FunctionDefinition', sourceUnit)) {
}
If the optional prune: (node: Node) => boolean
argument is specified,
findAll
will apply the function to each node, if the return value is truthy
the node will be ignored, neither yielding the node nor recursing into it. Note
that prune
is not available when curried.
To enumerate multiple node types at the same time, nodeType
can be an array
of node types such as ['EnumDefinition', 'StructDefinition']
.
for (const typeDef of findAll(['EnumDefinition', 'StructDefinition'], sourceUnit)) {
}
To enumerate all subnodes regardless of node type, nodeType
can be '*'
(a
string with a single asterisk).
astDereferencer(solcOutput) => (nodeType, id) => Node
astDereferencer
looks up AST nodes based on their id. Notably, it works
across multiple source files, which is why it needs the entire solc JSON output
with the ASTs for all source files in a compilation.
On Hardhat, the solc JSON output can be found in build info files.
const deref = astDereferencer(solcOutput);
deref('ContractDefinition', 4);
for (const contractDef of findAll('ContractDefinition', sourceUnit)) {
const baseContracts = contractDef.linearizedBaseContracts.map(deref('ContractDefinition'));
...
}
It is also possible to obtain the source unit that contains the dereferenced node:
const deref = astDereferencer(solcOutput);
const { node, sourceUnit } = deref.withSourceUnit('ContractDefinition', 4);
If the node type is unknown you can specify '*'
for nodeType
.
srcDecoder(solcInput, solcOutput, basePath = '.') => (node: Node) => string
srcDecoder
allows decoding of the src
property of a node, which looks
something like 123:4:0
, into a human-readable description of the location of
that node, such as file.sol:10
.
On Hardhat, the solc JSON input and output can be found in build info files.
const decodeSrc = srcDecoder(solcInput, solcOutput);
...
const location = decodeSrc(contractDefinition);
console.log('found contract at ' + location);